ON Semiconductor MC10H135M Dual D-Type Flip-Flop

The MC10H135M is a high-performance integrated circuit designed and manufactured by ON Semiconductor, a leading provider of semiconductor-based solutions. This dual D-type flip-flop is part of the 10H series, which is renowned for its high-speed and reliable performance in a variety of digital applications.

The MC10H135M features two edge-triggered flip-flops with set and reset capabilities, making it an ideal choice for applications requiring precise timing and control such as frequency division, counters, and control circuits. Each flip-flop has independent data, set, reset, and clock inputs, along with Q and Q-bar outputs, providing flexibility in design and implementation.

Constructed with ECL (Emitter Coupled Logic) technology, this device is capable of operating at exceptionally high speeds while maintaining low power consumption. The MC10H135M is characterized by its short propagation delay times and high noise immunity, which are critical for high-speed digital systems. Furthermore, the device is designed to operate over a wide range of supply voltages, typically from -4.94V to -5.46V, allowing for integration into various system voltages without the need for additional level-shifting components.

The MC10H135M is housed in a 16-pin SOIC package, which is suitable for surface mount technology (SMT) and offers a compact footprint for space-constrained applications. The robust design ensures reliable operation in harsh environments, making it a suitable choice for industrial and commercial applications.

Key features of the MC10H135M include:

• Dual D-type flip-flops with set and reset
• High-speed ECL technology
• Independent inputs for each flip-flop
• Wide operating voltage range
• Low power consumption
• High noise immunity
• Short propagation delay
• 16-pin SOIC package for SMT

With its combination of speed, flexibility, and reliability, the ON Semiconductor MC10H135M is an excellent choice for designers looking to implement high-speed digital logic in their systems.